CN106536460A - Process for recovering methane from a gas stream comprising methane and ethylene - Google Patents

Abstract

The invention relates to a process for recovering methane from a gas stream comprising methane and ethylene, comprising: a sorption step which comprises contacting the gas stream comprising methane and ethylene with a sorption agent which has a lower affinity for methane than for ethylene, resulting in sorption of ethylene and part of the methane by the sorption agent and in a gas stream comprising methane; a rinse step which comprises contacting a gas stream, comprising a compound for which the sorption agent has a higher affinity than for methane, with the sorption agent containing sorbed ethylene and methane, resulting in sorption of the compound for which the sorption agent has a higher affinity than for methane by the sorption agent, in desorption of methane from the sorption agent and in a gas stream comprising methane; and a desorption step which comprises desorbing sorbed ethylene and the sorbed compound for which the sorption agent has a higher affinity than for methane resulting in a gas stream comprising ethylene and the compound for which the sorption agent has a higher affinity than for methane.

Description

For the method for reclaiming methane from the gas stream comprising methane and ethylene

Invention field

The present invention relates to for the method for reclaiming methane from the gas stream comprising methane and ethylene.

Background of invention

It is known methane to be changed into 2 or more carbon using referred to as " oxidative coupling of methane " method (OCM) The saturation of atom and undersaturated non-aromatic hydrocarbons, including ethylene.In the method, the gas stream comprising methane and OCM catalyst And with oxidant such as oxygen or air contact.In such method, two methane molecules are coupled into an ethane first Molecule, then which be dehydrogenated to ethylene.The ethane and ethylene further can react into full with three or more carbon atoms And with unsaturated hydrocarbons, including propane, propylene, butane, butylene etc..Therefore, generally, the gas stream for leaving OCM techniques includes water, hydrogen Gas, carbon monoxide, carbon dioxide, methane, ethane, ethylene, propane, propylene, butane, butylene and have 5 or more carbon it is former The saturation and unsaturated hydrocarbons of son.

Generally, in OCM methods, attainable conversion ratio is relatively low.Additionally, at higher conversion rates, selectivity drop It is low so as to it is generally desirable to keep conversion ratio low.Therefore, relatively great amount of unconverted methane leaves OCM methods.OCM product gas In stream, the ratio of unconverted methane may be up to 70-80 mole of % based on the integral molar quantity of gas stream.The unconverted methane must Must be from desired product such as ethylene and other with 2 or more carbon atoms being also present in such gas stream Reclaim in saturation and unsaturated hydrocarbons.

The gas stream that OCM methods are left with method below is known.Acid gas are removed (mainly with two benches CO₂), the first stage is monoethanolamine (MEA) aqueous solution absorption system, and second stage is by removing by NaOH solution washings Remove final trace CO₂.Without CO₂Gas be dried in desiccant bed, and similar to used in conventional ethylene factory Processing in piece-rate system (train).Separation sequence includes front end demethanizer, deethanizer, C2 separators, depropanizer, C3 Separator and debutanizer.The low temperature that separating needs is met by propylene-ethylene cascade refrigeration system, and which is only for piptonychia The alkane stage needs ethylene refrigerant.

Therefore, by utilizing low temperature distillation by methane from two or more carbon in so-called " demethaniser " tower The saturation of atom is with to carry out separating in unsaturated hydrocarbons (such as ethylene) be known.In low temperature distillation, relatively high pressure is used Power (usual 23-35 bars) and relatively low (low temperature) temperature (generally -120 to -70 DEG C) are implementing the separation of methane.In OCM mistakes It is disclosed in such as US5113032 and US5025108 using low temperature distillation after journey.

It is an object of the invention to provide a kind of technically favourable, effective and affordable for from comprising methane and second The method that methane is reclaimed in the gas stream of alkene, especially in feelings of such gas stream comprising relatively a high proportion of unconverted methane Under condition.This technical advantageous approach will preferably result in relatively low energy requirement and/or relatively low Capital expenditure.

The content of the invention

It was surprisingly found that being flowed through by three below step by making the gas comprising methane and ethylene, it is possible to provide this The method for being technically advantageously used for methane is reclaimed from the gas stream of sample, causes relatively low energy requirement and/or relatively low Capital expenditure：

Sorption step, which includes making the gas stream comprising methane and ethylene have more low-affinity to ethylene with to methane ratio Sorbent contacts, cause ethylene and portion of methane by the sorbent sorption, and produce comprising methane gas stream；

Washing step, it include making the gas stream of inclusion compound with comprising being connect by the sorbent of the ethylene and methane of sorption Touch, the sorbent has more high-affinity to methane to the compound ratio, cause the sorbent that methane tool is compared to which There is the compound of more high-affinity by the sorbent sorption, cause methane from sorbent desorbing and produce the gas comprising methane Stream；With

Desorption procedure, it include desorbing by the ethylene of sorption and by the sorbent of sorption to its than to methane have more The compound of high-affinity, produces and includes ethylene and the sorbent to which than to compound of the methane with more high-affinity Gas stream.

Therefore, it is the present invention relates to method for reclaiming methane from the gas stream comprising methane and ethylene including above-mentioned Sorption step, washing step and desorption procedure.

Brief description

Fig. 1 shows an embodiment party of the inventive method including above-mentioned sorption step, washing step and desorption procedure Formula.

One embodiment of the embodiment that Fig. 2 is shown in showing Fig. 1, wherein undergoing the gas of the sorption step Stream also comprising the component in addition to methane and ethylene, i.e. hydrogen, carbon monoxide, carbon dioxide, ethane and have 3 or more The hydrocarbon of carbon atom.

Specific embodiment

The gas stream for undergoing the sorption step of the inventive method is the gas stream comprising methane and ethylene.Preferably, it is described Gas stream is derived from oxidative coupling (OCM) technique of above-mentioned methane, wherein the gas stream comprising methane and OCM catalyst and and oxygen Methane is converted into ethylene and optional ethane and/or has 3 or more carbon originals by agent such as oxygen or air contact The saturation and undersaturated non-aromatic hydrocarbons of son.Preferably, undergo the methane of the gas stream of sorption step comprising 50-99 mole of % and The ethylene of 1-50 mole of %.Total amount of the relative quantity based on gas stream.

In this specification, in gas stream is referred to during relative (for example, mole) amount of component, such relative quantity is selected It is selected as causing the total amount of the gas stream to be less than 100%.

In the sorption step of the inventive method, the gas stream comprising methane and ethylene with to methane ratio to ethylene have more The sorbent contacts of low-affinity, cause ethylene and portion of methane by the sorbent sorption, and produce the gas comprising methane Stream.That is, the gas stream from sorption step is included not by the methane of sorbent sorption.Especially, walk from sorption The amount of the methane in rapid gas stream is 10-99%, more preferably preferred 30-99%, more preferably 40-99%, 50-99%, optimum 60-99% is selected, the amount based on the methane undergone in the gas stream of sorption step.Percent below is also referred to as " methane repulsion (rejection) " (methane not by sorption, but " being ostracised ").This " methane repulsion " can be by changing pressure and/or suction The property of agent and change.Therefore, in sorption step by the amount of the methane of sorbent sorption be 1-90%, preferred 1-70%, More preferably 1-60%, more preferably 1-50%, most preferably 1-40%, the amount based on the methane undergone in the gas stream of sorption step.

From methane in the gas stream of sorption step amount can for most 99%, or it is most 98%, or it is most 95%, or Most 90%, based on the amount for undergoing methane in the gas stream of sorption step.Further, from first in the gas stream of sorption step The amount of alkane can be at least 10%, or at least 30%, or at least 40%, or at least 50%, or at least 60%, based on undergoing sorption The amount of methane in the gas stream of step.Therefore, the amount from methane in the gas stream of sorption step can be, for example, 10- 99% or 60-99% or 10-90% or 60-90%.Therefore, can by the amount of the methane of sorbent sorption in sorption step Think at least 1%, or at least 2%, or at least 5%, or at least 10%, based on undergoing methane in the gas stream of sorption step Amount.Further, in sorption step by the amount of the methane of sorbent sorption can for most 90%, it is or most 70%, or most Many 60%, or it is most 50%, or most 40%, based on the amount for undergoing methane in the gas stream of sorption step.Therefore, walk in sorption Can be such as 1-90% or 1-40% or 10-90% or 10-40% by the amount of the methane of sorbent sorption in rapid.

In the sorption step of the inventive method, using sorbent.In this manual, " sorption " be meant that a kind of thing Matter (sorbent) is caught by absorption and sorption or combination or keeps or retain the process of another kind of material.

Additionally, there is lower parent to ethylene to methane ratio for the sorbent in the sorption step of the inventive method And power.This means the condition used in the sorption step, including the pressure and temperature being further defined below under, it is described Sorbent has lower affinity to ethylene to methane ratio.This means in the method for the invention, it should in sorption step Used in such sorbent so that be more than 1 with by the mol ratio of the methane of sorption by the ethylene of sorption:1, it is assumed that ethylene and first The partial pressures such as alkane.Preferably, the ratio is 1.1:1-10:1st, more preferably 1.1:1-5:In the range of 1.It is suitable for the present invention's Sorbent can pass through to assume the partial pressure such as ethylene and methane, to various known sorbents, under any given temperature and pressure condition, The relatively sorption degree of the sorption degree and ethylene of methane is being selected.Therefore, it is possible to use the sorbent of wide scope, because Sole criterion in the present invention is that sorbent should have lower affinity to ethylene to methane ratio.Without any restriction Ground, the example of suitable sorbent agent is activated carbon, zeolite 13X and zeolite 5A.

Pressure in the sorption step of the inventive method can change in a wide range.Preferably, the pressure is higher than air Pressure.It is highly preferred that the pressure superatmospheric and be up to 15 bars, more preferably 5-15 bars, most preferably 7-13 bars.

Temperature in the sorption step of the inventive method also can change in a wide range.Preferably, the temperature is in 0-100 DEG C, in the range of more preferably 10-80 DEG C, most preferably 25-50 DEG C.Advantageously, in the present invention, the sorption step can be in non-cryogenic Temperature (such as above-mentioned 0-100 DEG C) under carry out.

In the washing step of the inventive method, from above-mentioned sorption step comprising by the suction of the ethylene and methane of sorption Agent to contact with the gas stream of inclusion compound, the sorbent has higher affinity to methane to the compound ratio. As sorbent has more low-affinity to the compound in the presence of the gas stream used in washing step to methane ratio, Therefore the washing step cause sorbent to its than there is more high-affinity to methane the compound by the sorbent Sorption, causes methane from sorbent desorbing and produces the gas stream comprising methane.That is, from the gas stream of washing step Comprising the methane from sorbent desorbing.

Gas stream used in washing step is comprising sorbent to which than to compound of the methane with more high-affinity.By In in the methods of the invention, sorbent to methane ratio to ethylene have more low-affinity, thus be accordingly used in it is in washing step, include Sorbent can include ethylene to its gas stream than the compound to methane with more high-affinity.Preferably, for purge step The gas stream in rapid does not substantially include methane.Generally, sorbent to its than to methane have more high-affinity described in Compound is selected from ethylene, ethane and the compound with 3 or the hydrocarbon of more carbon atoms comprising one or more.Suitably, The hydrocarbon with 3 or more carbon atoms includes saturation and unsaturated hydrocarbons with 3 or more carbon atoms, including third Alkane, propylene, butane and butylene and optional saturation and unsaturated hydrocarbons with 5 or more carbon atoms.Preferably, comprising Sorbent to its than the compound to methane with more high-affinity gas stream mixing comprising ethylene, ethane or ethylene and ethane Compound, more preferably ethylene.

Therefore, in the methods of the invention, sorbent is compared present in the gas stream used in washing step to methane Compound has lower affinity.As discussed already in connection with sorption step above, it means that make in washing step With under conditions of, including the pressure and temperature for further limiting herein below, the sorbent is compared in washing step to methane Used in gas stream present in the other compound have lower affinity.

Preferably, the gas stream during above-mentioned washing step to be used be always from desorption procedure comprising ethylene and The sorbent is to the gas stream isolated in its gas stream than the compound to methane with more high-affinity.With that side Formula, advantageously, will not need extraneous gas stream to carry out washing step and so as to obtain larger process efficiency and integration. For example, as discussed above, it is to be used it is in washing step, comprising the sorbent to its than to methane have more high-affinity The gas stream of compound can include the mixture of ethylene, ethane or ethylene and ethane, in such cases, from desorption procedure Gas stream includes the mixture of ethylene or ethylene and ethane.

Pressure in the washing step of the inventive method can change in a wide range.Preferably, the pressure is higher than air Pressure.It is highly preferred that the pressure superatmospheric and be up to 15 bars, more preferably 5-15 bars, most preferably 7-13 bars.

Temperature in the washing step of the inventive method also can change in a wide range.Preferably, the temperature is in 0-100 DEG C, in the range of more preferably 10-80 DEG C, most preferably 25-50 DEG C.Advantageously, in the present invention, the washing step can be in non-cryogenic Temperature (such as above-mentioned 0-100 DEG C) under carry out.

In the desorption procedure of the inventive method, by the ethylene and sorbent of sorbent sorption to which than having more to methane The compound of high-affinity is desorbed, and produces and includes ethylene and the sorbent to which than to change of the methane with more high-affinity The gas stream of compound.That is, latter ethylene of the gas stream comprising the desorbing from sorbent and the institute from desorption procedure Sorbent is stated to which than to compound of the methane with more high-affinity.For example, as discussed above, it is to be used in washing step In, ethylene, ethane or second can be included than the gas stream of compound to methane with more high-affinity to which comprising sorbent The mixture of alkene and ethane, in this case, the gas stream from desorption procedure includes the mixing of ethylene or ethylene and ethane Thing.

Preferably, in the desorption procedure of the inventive method, desorbing is realized by reducing pressure.That is, desorbing Pressure in step is less than the pressure in sorption and washing step.This so-called " pressure-variable adsorption " (PSA).In desorption procedure Desorbing by reducing pressure come in the embodiment implemented, the pressure in sorption and washing step is preferably in 5-15 bars, more excellent Select in the range of 7-13 bars.

In the case of in this relatively low pressure (such as 15 bar of highest) is for sorption and washing step, advantageously, In addition to ethylene, only part methane is kept by sorption by sorption (in sorption step) or no methane (in washing step). Hence it is advantageous to, in the sorption and washing step of the inventive method, using relatively low pressure (such as 5- as above 15 bars).Additionally, so low pressure advantageously causes the relatively less compression that may need gas stream.It is particularly favourable that The pressure that may be needed in the sorption step of the inventive method can be with the process that can produce the gas stream comprising methane and ethylene In pressure it is identical, such as the pressure during above-mentioned methane oxidation coupling (OCM).In the later case, at all need not be right The gas stream carries out any compression to carry out the sorption step.

Additionally, in the embodiment for implementing the desorbing in desorption procedure by reducing pressure, the pressure in desorption procedure It is preferred that in the range of 0.1-3 bars, more preferably 0.5-2 bars.

Temperature in the desorption procedure of the inventive method also can change in a wide range.Preferably, the temperature is in 0- In the range of 100 DEG C, more preferably 10-80 DEG C, most preferably 25-50 DEG C.Advantageously, in the present invention, the desorption procedure can be non- Carry out at the temperature (such as above 0-100 DEG C) of low temperature.

Advantageously, the method for the present invention makes it possible in relatively low pressure (15 bar of highest as escribed above) and non-low Methane is efficiently separated from the gas stream comprising methane and ethylene at the temperature (0-100 DEG C as escribed above) of temperature.

The inventive method is further advantage is that all methane by way of sorption and washing step are combined from bag Reclaim in gas stream containing methane and ethylene.If not carrying out washing step, desorption procedure will be produced comprising ethylene and methane Gas stream.In this case, it would be desirable to which distillation column is always reclaiming further methane from the gas stream of desorption procedure. Therefore, the washing step of the inventive method make it possible to not need distillation column and always reclaim from the gas stream of desorption procedure into The methane of one step.That is, advantageously, " demethaniser " tower is not needed in the method for the invention and is utilized under high pressure low Temperature is distilled methane and ethylene separation.Therefore, the compression of gas stream needs less energy.And, in any " demethaniser " Before distilling in tower, do not need energy at all to freeze the gas stream comprising methane and ethylene, because all methane exist Separated in the sorption of the inventive method and washing step.

As demonstrated in the embodiment of the present invention, it has therefore been surprisingly found that with not including the inventive method sorption, wash Wash with desorption procedure and only include that the method for the as above distilation steps for using " demethaniser " tower is compared, present invention side The energy requirement of method, the energy requirement especially to compressing and freezing are advantageously significantly lower；Wherein in control methods, methane Without from the removing of the gas stream comprising methane and ethylene before low temperature distillation.Therefore, the inventive method be can be with technical The method that feasible, effective and affordable mode reclaims methane from the gas stream comprising methane and ethylene because with it is existing There is technical method to compare, energy requirement is surprisingly lower.

The example of one embodiment of the inventive method is schematically illustrated in Fig. 1.In described Fig. 1, comprising first The gas stream 1 of alkane and ethylene is fed to sorption and desorption unit 1, and which includes the suction for having more low-affinity to ethylene to methane ratio Agent.The pressure of gas stream 1 is relatively high, such as in the range of 5-15 bars so that ethylene and portion of methane are by sorbent sorption.Bag Gas stream 2 containing methane leaves sorption and desorption unit 1, and the methane is not inhaled by the sorbent in sorption and desorption unit 1 .

Over time, stop gas stream 1 being fed to sorption and desorption unit 1.First is compared to which comprising sorbent Alkane has the compound (compound can for example include the mixture of ethylene, ethane or ethylene and ethane) of more high-affinity Gas stream then be fed to sorption and desorption unit 1.During the washing step, the pressure of latter gas stream is relatively high, For example in the range of 5-15 bars so that sorbent replaces by sorption than the compound to methane with more high-affinity to which The methane of agent sorption.Gas stream 2 ' comprising methane leaves sorption and desorption unit 1.In addition to methane, gas stream 2 ' can also be wrapped A certain amount of described sorbent in sorption and desorption unit 1 is fed in being contained in the washing step to which than having more to methane The compound of high-affinity.

Over time, become, stop to include sorbent to which than the gas to compound of the methane with more high-affinity Body stream is fed to sorption and desorption unit 1, and reduces the pressure in the unit.For example, it is being enumerated as above in sorption and is washing In the case that during washing step, pressure is in the range of the 5-15 bars, the pressure in sorption and desorption unit 1 can be reduced to 0.1-3 bars In the range of pressure.By such reduced pressure, methane tool is compared by the ethylene of sorbent sorption and the sorbent to which The compound for having more high-affinity is desorbed.From sorbent desorbing, methane tool is compared comprising ethylene and the sorbent to which The gas stream 3 for having the compound of more high-affinity leaves sorption and desorption unit 1.

Once ethylene and the sorbent are completed to which than the desorbing to compound of the methane with more high-affinity, it is just heavy The new gas stream 1 that starts is to sorption and the charging of desorption unit 1 repetition said procedure.During above-mentioned washing step, wait to be entered The gas stream for expecting sorption and desorption unit 1 can be from 3 detached gas stream of gas stream, such as gas stream 4.

The stream 2 and 2 ' comprising methane advantageously can be partially or even wholly used for (being recycled to) methane and is used as starting In the method for material (to the methane for further converting recovery), such as in oxidative coupling (OCM) method of above-mentioned methane.Or Person, also includes a certain amount of sorbent to which than to compound of the methane with more high-affinity in the gas stream 2 ' in addition to methane In the case of (compound is fed to sorption and desorption unit 1 in washing step), gas stream 2 ' can be directly or logical Cross gas stream 1 and be circulated to the unit.

Preferably, the gas stream comprising methane and ethylene for undergoing the sorption step of the inventive method does not substantially include Water.It is further preferred that the gas stream comprising methane and ethylene does not substantially include hydrogen sulfide.

In this specification, be related to the amount of concrete component in gas stream " substantially not " mean its be most 1,000, Preferably up to 500, preferably up to 100, preferably up to 50, more preferably up to 30, more preferably up to 20, and most preferably up to The component for being discussed of the amount of 10ppmw, the amount (i.e. weight) based on the gas stream.

Further, in an embodiment of the inventive method, the sorption step for undergoing the inventive method is included The gas stream of methane and ethylene additionally comprising such as hydrogen of the component in addition to the methane and ethylene, optionally nitrogen, one Carbonoxide, carbon dioxide, ethane and the hydrocarbon with 3 or more carbon atoms.

Suitably, the hydrocarbon with 3 or more carbon atoms comprising the saturation with 3 or more carbon atoms with Unsaturated hydrocarbons, including propane, propylene, butane and butylene and optional saturation and insatiable hunger with 5 or more carbon atoms And hydrocarbon.

As described above, the gas stream comprising methane and ethylene for undergoing the sorption step of the inventive method additionally can be included Nitrogen.Nitrogen can for example be present in gas stream from OCM (oxidative coupling of methane) method (wherein using air rather than pure oxygen As oxidant) in the case of.

In the above-mentioned embodiment of the inventive method, wherein gas stream additionally includes hydrogen, optional nitrogen, an oxygen Change carbon, carbon dioxide, ethane and the hydrocarbon with 3 or more carbon atoms, methods described includes：

Sorption step, which includes making comprising methane, ethylene, hydrogen, optional nitrogen, carbon monoxide, carbon dioxide, ethane With the gas stream of the hydrocarbon with 3 or more carbon atoms with methane, hydrogen, nitrogen and carbon monoxide are compared carbon dioxide, Ethane, ethylene and the hydrocarbon with 3 or more carbon atoms have the sorbent contacts of more low-affinity, cause with 3 or more The hydrocarbon of many carbon atoms, ethane, ethylene, carbon dioxide and portion of methane are by the sorbent sorption, and produce comprising hydrogen, optionally Nitrogen, carbon monoxide and methane gas stream；

Washing step, which includes making comprising sorbent to which than the gas stream to compound of the methane with more high-affinity With comprising being connect by the carbon dioxide of sorption, methane, ethylene, ethane and the sorbent with 3 or the hydrocarbon of more carbon atoms Touch, cause the sorbent to cause methane than to compound of the methane with more high-affinity by the sorbent sorption to which From sorbent desorbing and produce comprising methane gas stream；With

Desorption procedure, which includes desorbing by the carbon dioxide of sorption, ethylene, ethane and has 3 or more carbon atoms Hydrocarbon and by the sorbent of sorption to which than the compound to methane with more high-affinity, produce comprising titanium dioxide Carbon, ethylene, ethane and hydrocarbon and the sorbent with 3 or more carbon atoms are higher more affine than having to methane to which The gas stream of the compound of power.

Further, it is preferable to ground, the inventive method wherein gas stream additionally comprising in addition to methane and ethylene In the above-mentioned embodiment of component, undergo the methane of the gas stream of sorption step comprising 40-90 mole of %, 0.5-45 mole of % Ethylene, the hydrogen of 0.01-3 mole of %, the nitrogen of 0-80 mole of %, the carbon monoxide of 0.1-5 mole of %, the two of 5-25 mole of % The hydrocarbon with 3 or more carbon atoms of carbonoxide, the ethane of 0.1-25 mole of % and 0.5-20 mole of %.The relative quantity Total amount based on gas stream.

Sorbent, pressure, temperature, washing methods and sorption-desorption method (such as PSA) as discussed above are also applied for Wherein in the above-mentioned embodiment of the inventive method of gas stream also comprising the component in addition to methane and ethylene.For example, at this In embodiment, it is preferable that the gas stream during above-mentioned washing step to be used be from come from desorption procedure, comprising two Carbonoxide, ethylene, ethane and hydrocarbon and sorbent with 3 or more carbon atoms are higher more affine than having to methane to which The gas stream isolated in the gas stream of the compound of power.By that way, advantageously, it is not necessary to which extraneous gas stream is entering Row washing step, so as to obtain higher process efficiency and globality.The advantage applies also for other enforcements described below Mode, wherein gas stream are separated from comprising sorbent to its gas stream than the compound to methane with more high-affinity Go out.

Preferably, in said embodiment, the inventive method also includes distilation steps, and the distilation steps include distillation From the gas stream comprising hydrogen, optional nitrogen, carbon monoxide and methane of sorption step, the distilation steps are produced and are included The top stream and the stream of the bottom comprising methane of hydrogen, optional nitrogen and carbon monoxide.Preferably, in the distilation steps, Gas stream is under the pressure in the range of 20-40 bars, preferred 23-35 bars, and in -170 to -70 DEG C, preferably -150 to -90 DEG C of scopes Distilled at interior temperature.In this manual, this temperature in distilation steps means tower top temperature, and which is distillation tower top The temperature in condenser at portion.

In said embodiment, if from sorption step comprising hydrogen, optional nitrogen, carbon monoxide and methane Gas stream additionally include carbon dioxide, then the gas stream is separable into the subflow that is recycled to sorption step and is discharged Subflow, rather than the gas is flowed through by above-mentioned distilation steps.

Further, it is preferable to ground, in said embodiment, the inventive method additionally includes that carbon dioxide removes step Suddenly, the step include always from desorption procedure, comprising carbon dioxide, ethylene, ethane and have 3 or more carbon atoms Hydrocarbon and the sorbent to its than to methane have more high-affinity compound gas stream in remove carbon dioxide, produce Raw hydrocarbon and the sorbent comprising ethylene, ethane and with 3 or more carbon atoms is higher than having to methane to which The gas stream of the compound of affinity.In the carbon dioxide removing step, carbon dioxide can be by such as any known method Remove, such as with amine and and then with caustic process, such as respectively monoethanolamine (MEA) aqueous solution absorption system and NaOH Aqueous solution, as mentioned in this specification description above part.Preferably, during being ready to use in above-mentioned washing step Gas stream be from come from carbon dioxide removing step, comprising ethylene, ethane and the hydrocarbon with 3 or more carbon atoms And the sorbent is to the gas stream isolated in its described gas stream than the compound to methane with more high-affinity.

Further, in said embodiment, the inventive method can also include distilation steps, and the distilation steps include Distill from carbon dioxide removing step, comprising ethylene, ethane and hydrocarbon and the suction with 3 or more carbon atoms Agent to which than the gas stream to compound of the methane with more high-affinity, the compound is selected from second comprising one or more Alkene, ethane and with 3 or the compound in the hydrocarbon of more carbon atoms, the distilation steps produce the top comprising ethylene and flow Flow with the bottom with 3 or the hydrocarbon of more carbon atoms with comprising ethane.Preferably, in the distilation steps, gas stream Under the pressure in the range of 10-40 bars, preferred 13-35 bars, and -60 DEG C to 40 DEG C, preferably -40 DEG C to 20 DEG C in the range of temperature Lower distillation.Preferably, it is to flow from the top or from the stream of the bottom to be ready to use in the gas stream during above-mentioned washing step The gas stream isolated.

Also further, in said embodiment, the method for the present invention can additionally include distilation steps, the distillation Step includes distilling comprising ethane and the above-mentioned bottom stream with 3 or the hydrocarbon of more carbon atoms, and the distilation steps are produced Top comprising ethane stream and the stream of the bottom comprising the hydrocarbon with 3 or more carbon atoms.Preferably, in the distilation steps In, pressure of the gas stream in the range of 10-40 bars, preferred 13-35 bars, and -60 DEG C to 40 DEG C, preferably -40 DEG C to 20 DEG C scopes Distilled at interior temperature.Preferably, be ready to use in the gas stream during above-mentioned washing step be flow from the top or from The gas stream isolated in the bottom stream.

In an alternate embodiments, the inventive method can additionally include distilation steps, and the distilation steps include Distillation from carbon dioxide removing step, comprising ethylene, ethane and hydrocarbon and the suction with 3 or more carbon atoms Agent to which than the above-mentioned gas stream to compound of the methane with more high-affinity, the compound includes one or more and selects From ethylene, ethane and with 3 or the compound in the hydrocarbon of more carbon atoms, the distilation steps are produced comprising ethylene and second The top stream and the stream of the bottom comprising the hydrocarbon with 3 or more carbon atoms of alkane.Preferably, in the distilation steps, gas Body stream under the pressure in the range of 10-40 bars, preferred 13-35 bars, and -60 DEG C to 40 DEG C, preferably -40 DEG C to 20 DEG C in the range of At a temperature of distill.Preferably, it is to flow from the top or from the bottom to be ready to use in the gas stream during above-mentioned washing step The gas stream isolated in stream.

Further, it is preferable to ground, in the alternative embodiments, the method for the present invention additionally includes distillation step Suddenly, the distilation steps include distilling the above-mentioned top stream comprising ethylene and ethane, and the distilation steps are produced comprising ethylene Top stream and the stream of the bottom comprising ethane.Preferably, in the distilation steps, top is flowed in 10-40 bars, preferred 13-35 bars In the range of pressure under, and -60 DEG C to 40 DEG C, preferably -40 DEG C to 20 DEG C at a temperature in the range of distill.Preferably, it is ready to use in Gas stream during above-mentioned washing step is the gas stream for flowing from the top or isolating from the stream of the bottom.

Fig. 2 schematically shows one embodiment of the embodiment of the inventive method, wherein undergoing sorption step Rapid gas stream is additionally comprising the component in addition to methane and ethylene, i.e. hydrogen, carbon monoxide, carbon dioxide, ethane and tool There is the hydrocarbon of 3 or more carbon atoms.Hereinafter, ethylene, ethane also may be used with the combination of the hydrocarbon with 3 or more carbon atoms Referred to as there is the hydrocarbon of 2 or more carbon atoms.In described Fig. 2, comprising hydrogen, carbon monoxide, carbon dioxide, methane, second Alkene, ethane and the gas stream 1 with 3 or the hydrocarbon of more carbon atoms are fed to the sorption comprising sorbent and desorption unit 1 In, the sorbent compares carbon dioxide to hydrogen, carbon monoxide and methane and the hydrocarbon with 2 or more carbon atoms has Lower affinity.The pressure of gas stream 1 is relatively high, such as in the range of 5-15 bars so that with 2 or more carbon atoms Hydrocarbon, carbon dioxide and portion of methane are by sorbent sorption.Gas stream 2 comprising hydrogen, carbon monoxide and methane leave sorption and Desorption unit 1, the hydrogen, carbon monoxide and methane are in sorption and desorption unit 1 not by sorbent sorption.2 quilt of gas stream It is sent to distillation column 2.

In distillation column 2, the gas stream 2 comprising hydrogen, carbon monoxide and methane is in pressure for example as above and temperature Distill under the conditions of degree, the condition causes to realize on the one hand hydrogen and carbon monoxide with the other hand separating between methane. That is, the stream of the top comprising hydrogen and carbon monoxide 3 leaves distillation column 2 with the stream of the bottom comprising methane 4.If gas stream 2 Carbon dioxide is included also, then gas stream 2 is separable into the subflow for being sent to (be recycled to) sorption and desorption unit 1 and the son being discharged Flow (without display in Fig. 2) rather than gas stream 2 is sent to into distillation column 2.

Over time, stop gas stream 1 being fed to sorption and desorption unit 1.First is compared to which comprising sorbent (compound is comprising one or more selected from ethylene, ethane and with 3 or more for compound of the alkane with more high-affinity Compound in the hydrocarbon of carbon atom, and the compound can for example include the mixture of ethylene, ethane or ethylene and ethane) gas Then body stream be fed to sorption and desorption unit 1.During the washing step, the pressure of latter gas stream is relatively high, for example In the range of 5-15 bars so that sorbent replaces by sorbent suction than the compound to methane with more high-affinity to which The methane.Gas stream 5 comprising methane leaves sorption and desorption unit 1.In addition to methane, gas stream 5 can be additionally included in this A certain amount of described sorbent being fed in washing step in sorption and desorption unit 1 is higher more affine than having to methane to which The compound of power.

Over time, become, stop to include sorbent to which than the gas to compound of the methane with more high-affinity Body stream is fed to sorption and desorption unit 1, and reduces the pressure in the unit.For example, walking in sorption as illustrated on In the case that during rapid, pressure is in the range of the 5-15 bars, the pressure in sorption and desorption unit 1 can be reduced to the scope of 0.1-3 bars Interior pressure.By such reduced pressure, by the carbon dioxide of sorbent sorption and the hydrocarbon with 2 or more carbon atoms It is desorbed.From sorbent desorbing, comprising carbon dioxide and the gas stream 7 with 2 or the hydrocarbon of more carbon atoms leaves suction With desorption unit 1 and be sent to carbon dioxide removal unit 3.

Once completing desorbing, just restarting gas stream 1 is to sorption and the charging of desorption unit 1 repetition said procedure.

In carbon dioxide removal unit 3, carbon dioxide in the way of as illustrated on, from comprising carbon dioxide and having Removed by stream 8 in the gas stream 7 of the hydrocarbon of 2 or more carbon atoms.Gas comprising the hydrocarbon with 2 or more carbon atoms Stream 9 leaves carbon dioxide removal unit 3 and is sent to distillation column 4.

In distillation column 4, the gas stream 9 comprising the hydrocarbon with 2 or more carbon atoms is pressed for example as above Distill under power and temperature conditionss, the condition causes to realize that on the one hand ethylene is with the other hand ethane and with 3 or more carbon Separation between the hydrocarbon of atom.That is, the top comprising ethylene is flowed 10 and includes ethane and have 3 or more carbon atoms The bottom stream of hydrocarbon 11 leave distillation column 4.Bottom stream 11 is sent to distillation column 5.

In distillation column 5, comprising ethane and the stream of the bottom with 3 or the hydrocarbon of more carbon atoms 11 is in such as above institute Distill under the conditions of the pressure and temperature stated, the condition cause to realize on the one hand ethane and on the other hand have 3 or more Separation between the hydrocarbon of carbon atom.That is, the top comprising ethane flows 12 and comprising the hydrocarbon with 3 or more carbon atoms Bottom stream 13 leave distillation column 5.

As has already been mentioned above, once completing desorbing, just the entering to sorption and desorption unit 1 of restarting gas stream 1 Expect and repeat said procedure.In above-mentioned washing step, treat that the gas stream of charging to sorption and desorption unit 1 can be following gas One or more (as indicated by dotted line in Fig. 2) in body stream：

(1) from the gas stream isolated comprising carbon dioxide and the gas stream 7 with 2 or the hydrocarbon of more carbon atoms, Such as gas stream 14；

(2) the gas stream isolated from the gas stream 9 comprising the hydrocarbon with 2 or more carbon atoms, such as gas stream 15；

(3) the gas stream isolated from the stream of the top comprising ethylene 10, such as gas stream 16；

(4) from the gas stream isolated comprising ethane and the gas stream 11 with 3 or the hydrocarbon of more carbon atoms, for example Gas stream 17；

(5) the gas stream isolated from the gas stream 12 comprising ethane, such as gas stream 18；With

(6) from the gas stream isolated comprising the stream of the bottom with 3 or more carbon atoms 13, such as gas stream 19.

As already mentioned above, during the washing step of embodiment illustrated in fig. 2, it is fed to sorption and desorption unit 1 The pressure of gas stream can be such as 5-15 bars.In this case, before sorption and desorption unit 1 is fed to, gas The pressure of stream 16-19 must may be lowered, and the pressure of gas stream 14 and 15 must may be improved.

Finally, the stream of the bottom comprising methane 4 and the stream 5 comprising methane merge, and produce the single stream comprising the methane for reclaiming 6.The stream 4, stream 5 and/or 6 (comprising methane) of stream advantageously partly or wholly can be used as (being recycled to) methane In the method for beginning material (to the methane for further converting recovery), such as in above-mentioned methane oxidation coupling (OCM) method.As Replacement scheme, also includes a certain amount of sorbent to which than having more high-affinity to methane in addition to methane in gas stream 5 Compound and in the case that the compound is fed to sorption and desorption unit 1 in washing step, gas stream 5 can be straight Ground connection is circulated to the unit by gas stream 1.

The present invention is further illustrated by the examples that follow.

Embodiment and comparative example

In example embodiments of the invention, device as shown in Figure 1 is for from the gas stream comprising methane and ethylene Methane is reclaimed, described device includes sorption and desorption unit 1, as described in the description before these embodiments.

In the comparative example of example prior art, using distillation column (rather than the sorption shown in Fig. 1 and desorption unit 1) Methane is reclaimed from the gas stream comprising methane and ethylene.

In embodiment, by the gas stream 1 of the ethylene of methane and 15.6 weight % comprising 84.4 weight % at 43 DEG C The sorption and desorbing of the sorbent comprising having more low-affinity to methane ratio to ethylene are fed under the pressure of temperature and 9.8 bars Unit 1.Ethylene and portion of methane from gas stream 1 is by sorbent sorption.The gas stream 2 of the methane comprising 99.9+ weight % Sorption and desorption unit 1 are left, the methane is not by the sorbent sorption in sorption and desorption unit 1.

The percentage ratio (methane is not by sorption) that the methane of sorption and desorption unit 1 is left by gas stream 2 is referred to as " methane repulsion " and based on by gas stream 1 be fed to sorption and desorption unit 1 methane amount, and " PSA60 ", 60%, 75% or 90% is respectively in the case of " PSA75 " and " PSA90 ".Sorption and desorption unit are being fed to gas stream 1 Under 1 identical temperature and pressure, that is to say, that gas stream 2 is produced under respectively 43 DEG C and 9.8 bars.

Over time, stop for gas stream 1 being fed to sorption and desorption unit 1.Further, the gas comprising ethylene A part for body stream 3 (desorption procedure that the gas stream 3 is referred to from below) is separated into two subflows.In the two subflows One, i.e. gas stream 4, be compressed to 9.8 bars and and then 43 DEG C temperature and the identical pressure under be fed to sorption With desorption unit 1.7.4%, 4.6% had in the case of " PSA60 ", " PSA75 " and " PSA90 " respectively in the ethylene of desorbing Gas stream 4 is transferred to from gas stream 3 with 1.8%.Ethylene in gas stream 4 is by sorbent sorption, and is existed by the methane of sorption From sorbent desorbing in sorption and desorption unit 1.The gas stream 2 ' of the methane comprising 99.0+ weight % leaves sorption and desorbing list Unit 1, the methane is in sorption and desorption unit 1 from sorbent desorbing.Gas stream 2 ' is being fed to sorption reconciliation with gas stream 4 Inhale 1 identical temperature and pressure of unit, be that is respectively generation under 43 DEG C and 9.8 bars.

Over time, stop by gas stream 4 feed pressure into sorption and desorption unit 1, and the unit from 9.8 bars are reduced to 1 bar, so as to cause the desorption procedure of the inventive method.The ethylene of sorption subsequently from sorbent desorbing and passes through Gas stream 3 leaves sorption and desorption unit 1, and ethylene of the gas stream 3 comprising 99.9+ weight %, temperature are 23 DEG C and pressure For 1 bar.

As has already been mentioned above, in comparative example (" base case "), using distillation column (rather than as shown in fig. 1 Sorption and desorption unit 1) reclaim methane from the gas stream comprising methane and ethylene.The gas stream is identical with gas stream 1, The gas stream of the ethylene of the methane and 15.6 weight % of 84.4 weight % is included.The gas stream is compressed in the first compressor To 9.8 bars, 32.9 bars are further compressed in the second compressor and finally -84 is cooled at which into before distillation column DEG C, the distillation column is the tower with 36 theoretical stages.In a distillation column, isolate following two stream：(tower top) temperature is -98 DEG C and pressure be 31.1 bars the methane comprising 99.9+ weight % top stream, and temperature is -5 DEG C and pressure is 31.3 bars The bottom stream of the ethylene comprising 99.8+ weight %.

With regard to the distillation column used in the base case, reflux ratio and distillation and charge ratio respectively 0.85 and 0.89. " reflux ratio " refers to the molar ratio of the molar flow rate divided by the molar flow rate of " distillation " of " stream of backflow ", the backflow Stream condenser is left at the top of distillation column and the part stream of the tower is sent back to；The distillation is on the top of distillation column Condenser is left without being sent back to the part stream of the tower in portion." distillation and the charge ratio " refers to " distillation " Molar ratio of the molar flow rate divided by the molar flow rate of the feed stream (" charging ") of charging to the tower.

In table 1 below, for all cases discussed above, that is to say, that compare " base case " (comparative example) and make For both cases of the present invention of " PSA60 ", " PSA75 " and " PSA90 " case (embodiment), all comprising from comprising methane and second Compression and the cooling power required for methane is reclaimed in the gas stream of alkene.The energy is expressed as kilowatt hour (" kWh "；1kWh= 3.6 megajoules)/kilogram (kg) ethylene.

Table 1

Case	Configuration	KWh/kg ethylene
			Base case	Distillation (comparison)	1.77
PSA60	Including the PSA of washing step	1.42
			PSA75	Including the PSA of washing step	1.22
PSA90	Including the PSA of washing step	0.99

By upper table 1, surprisingly show, the energy needed for methane is reclaimed from the gas stream comprising methane and ethylene It is advantageously minimum in the case where the inventive method is carried out.That is, " PSA60 " in example the inventive method, In all cases of " PSA75 " and " PSA90 ", the energy needed for the methane is reclaimed advantageously than carrying out in " base case " Energy needed for methane recovery is lower, in latter case, not using such method, but has carried out distilation steps.

Therefore, surprisingly, compared with the art methods of distilation steps are carried out, being obtained using the inventive method The favourable different energy effect, although in the present invention, sorption and desorption technique include intermediate washing step, the washing Step is required such as the relatively high pressure shown in " PSA60 ", " PSA75 " and " PSA90 " case.

Claims (11)

1., for flowing back to the method for receiving methane from the gas comprising methane and ethylene, methods described includes：

Sorption step, which includes making the gas stream comprising methane and ethylene have more low-affinity to ethylene with to methane ratio Sorbent contacts, cause ethylene and portion of methane by the sorbent sorption, and produce comprising methane gas stream；

Washing step, it include making the gas stream of inclusion compound with comprising by the sorbent contacts of the ethylene and methane of sorption, The sorbent has more high-affinity to methane to the compound ratio, causes the sorbent to which than having more to methane The compound of high-affinity is caused methane from the sorbent desorbing and is produced comprising methane by the sorbent sorption Gas stream；With

Desorption procedure, it include desorbing by the ethylene of sorption and by the sorbent of sorption to its than to methane have higher parent With the compound of power, produce and ethylene and the sorbent are included to which than the gas to compound of the methane with more high-affinity Stream.

2. method according to claim 1, wherein the gas stream for undergoing the sorption step includes 50-99 mole of % Methane and 1-50 mole of % ethylene.

3. method according to claim 1 and 2, wherein the sorbent to which than the change to methane with more high-affinity Compound is selected from ethylene, ethane and with 3 or the compound in the hydrocarbon of more carbon atoms comprising one or more.

4. method according to claim 3, wherein comprising the sorbent to which than there is more high-affinity to methane The gas stream of compound includes the mixture of ethylene, ethane or ethylene and ethane, optimal ethylene.

5. the method according to aforementioned any one of claim, wherein the desorbing in desorption procedure is by reducing pressure come real It is existing.

6. method according to claim 5, wherein the pressure in sorption and washing step is in 5-15 bars, preferred 7-13 bars In the range of, and the pressure in the desorption procedure is in the range of 0.1-3 bars, preferred 0.5-2 bars.

7. the method according to aforementioned any one of claim, wherein undergo the sorption step comprising methane and ethylene Gas stream additionally comprising hydrogen, optional nitrogen, carbon monoxide, carbon dioxide, ethane and has 3 or more carbon atoms Hydrocarbon, methods described includes：

Sorption step, which includes making comprising methane, ethylene, hydrogen, optional nitrogen, carbon monoxide, carbon dioxide, ethane and tool Have 3 or more carbon atoms hydrocarbon the gas stream with methane, hydrogen, nitrogen and carbon monoxide are compared carbon dioxide, Ethane, ethylene and the hydrocarbon with 3 or more carbon atoms have the sorbent contacts of more low-affinity, cause with 3 or The hydrocarbon of more carbon atoms, ethane, ethylene, carbon dioxide and portion of methane by the sorbent sorption, and produce comprising hydrogen, The gas stream of optional nitrogen, carbon monoxide and methane；

Washing step, which includes the gas stream for making inclusion compound and comprising by the carbon dioxide of sorption, methane, ethylene, ethane With the sorbent contacts of the hydrocarbon with 3 or more carbon atoms, the sorbent is to the compound ratio to methane with more High-affinity, causes the sorbent to be inhaled which than the compound to methane with more high-affinity by the sorbent , cause methane from the sorbent desorbing and produce the gas stream comprising methane；With

Desorption procedure, which includes desorbing by the carbon dioxide of sorption, ethylene, ethane and the hydrocarbon with 3 or more carbon atoms And by the sorbent of sorption to which than the compound to methane with more high-affinity, produce comprising carbon dioxide, second Alkene, ethane and hydrocarbon and the sorbent with 3 or more carbon atoms are to which than having more high-affinity to methane The gas stream of compound.

8. method according to claim 7, wherein undergoing the first of the gas stream comprising 40-90 mole of % of the sorption step Alkane, the ethylene of 0.5-45 mole of %, the hydrogen of 0.01-3 mole of %, the nitrogen of 0-80 mole of %, an oxidation of 0.1-5 mole of % Carbon, the carbon dioxide of 5-25 mole of %, the ethane of 0.1-25 mole of % and 0.5-20 mole of % with 3 or more carbon are former The hydrocarbon of son.

9. the method according to claim 7 or 8, which additionally includes distilation steps, and the distilation steps include that distillation comes From the gas stream comprising hydrogen, optional nitrogen, carbon monoxide and methane of the sorption step, the distilation steps produce bag The top stream and the stream of the bottom comprising methane of hydrogen, optional nitrogen and carbon monoxide.

10. the method according to any one of claim 7-9, which additionally includes carbon dioxide removing step, the step Including from from the desorption procedure, comprising carbon dioxide, ethylene, ethane and the hydrocarbon with 3 or more carbon atoms with And the sorbent, to removing carbon dioxide in its gas stream than the compound to methane with more high-affinity, generation is included Ethylene, ethane and hydrocarbon and the sorbent with 3 or more carbon atoms are to which than having more high-affinity to methane Compound gas stream.

11. methods according to claim 10, its additionally include distilation steps, the distilation steps include distill from The carbon dioxide removing step, comprising ethylene, ethane and hydrocarbon and the sorbent with 3 or more carbon atoms To its than to methane have more high-affinity compound gas stream, the compound comprising one or more selected from ethylene, Ethane and with 3 or the compound in the hydrocarbon of more carbon atoms, the distilation steps produce the stream of the top comprising ethylene and Flow with the bottom with 3 or the hydrocarbon of more carbon atoms comprising ethane.